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Researchers at Berkeley Lab have demonstrated tiny concentric nanocircles that self-assemble into an optical material with precision and efficiency.
The findings could help resolve a 60-year-old mystery and lead to applications in temperature-sensitive devices and energy-efficient systems.
The realm of quantum technology extends into problems such as modeling climate & weather or financial markets, or creating new types of molecules.
Choe, a Ph.D. student in Jonathan Sweedler’s chemistry lab, is building microbiology tools needed for CABBI’s bioenergy research.
Researchers made a fundamental discovery about the atomic structure and vibrations in multilayer nanostructures, advancing materials design.
Kathleen Ratcliffe and Tien Fak Tan work together to help build the superconducting accelerator that will drive new discoveries at SLAC's X-ray laser.
The qubits are made from an easy-to-use material called silicon carbide, which is widely found in lightbulbs, electric vehicles, and electronics.
Negative refraction is crucial to nanophotonics, to manipulate the behavior of light when it interacts with materials at the smallest possible scales.
A Kansas State research group in physics has been making and analyzing the three-dimensional maps of the galaxies observed so far by DESI.
The University of Kansas team will use the supercomputer to help solve one of the “grand challenges” in developing the next generation of aircraft.